Post-doc
Novel drug delivery systems, suspension polymerization, porous carriers, tablets, nanoparticles, perfusion-based layer-by-layer, cell encapsulation, scaffolds, 3D assembly of spheres/fibers as building blocks, organ printing, vertical fiber fabrication.
My Ph.D. is in the area of pharmaceuticals sciences. My work was related to the development of novel floating-pulsatile drug delivery system intended for chronotherapy using porous carrier
My post-doc works focuses on tissue engineering area, where I am using novel perfusion-based layer-by-layer methodology for organ printing application by assembling building blocks in the form of spheres and tubes mostly using hydrogels. New methodology of making vertical fibers for neural tissue engineering.
Post-doc
Novel drug delivery systems, suspension polymerization, porous carriers, tablets, nanoparticles, perfusion-based layer-by-layer, cell encapsulation, scaffolds, 3D assembly of spheres/fibers as building blocks, organ printing, vertical fiber fabrication.
My Ph.D. is in the area of pharmaceuticals sciences. My work was related to the development of novel floating-pulsatile drug delivery system intended for chronotherapy using porous carrier
My post-doc works focuses on tissue engineering area, where I am using novel perfusion-based layer-by-layer methodology for organ printing application by assembling building blocks in the form of spheres and tubes mostly using hydrogels. New methodology of making vertical fibers for neural tissue engineering.